EP1485412A1 - Repressor der skelettmuskeldifferenzierung, dafür kodierende nucleinsäure und dessen verwendung in diagnostik und therapie - Google Patents
Repressor der skelettmuskeldifferenzierung, dafür kodierende nucleinsäure und dessen verwendung in diagnostik und therapieInfo
- Publication number
- EP1485412A1 EP1485412A1 EP03712005A EP03712005A EP1485412A1 EP 1485412 A1 EP1485412 A1 EP 1485412A1 EP 03712005 A EP03712005 A EP 03712005A EP 03712005 A EP03712005 A EP 03712005A EP 1485412 A1 EP1485412 A1 EP 1485412A1
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- European Patent Office
- Prior art keywords
- grim1
- sequence
- cells
- protein
- hsgrimi
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K16/00—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies
- C07K16/18—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from animals or humans
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K14/00—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof
- C07K14/435—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans
- C07K14/46—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans from vertebrates
- C07K14/47—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans from vertebrates from mammals
- C07K14/4701—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans from vertebrates from mammals not used
- C07K14/4702—Regulators; Modulating activity
- C07K14/4703—Inhibitors; Suppressors
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K14/00—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof
- C07K14/435—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans
- C07K14/46—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans from vertebrates
- C07K14/47—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans from vertebrates from mammals
- C07K14/4701—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans from vertebrates from mammals not used
- C07K14/4716—Muscle proteins, e.g. myosin, actin
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K38/00—Medicinal preparations containing peptides
Definitions
- Repressor of skeletal muscle differentiation nucleic acid encoding it and its use in diagnostics and therapy
- the present invention relates to a new core compressor, the function of which has largely been elucidated. Various possible uses for this corepressor are disclosed.
- GRIM1 chosen for the corepressor according to the invention represents the abbreviation of the English-language designation "Global Repressor involved in Myogenic Differentiation". This name was chosen because the cloned factor plays an important role, particularly during skeletal muscle differentiation.
- transcription factors in the narrower sense referred to as transcription factors
- regulatory molecules which, as co-activators, facilitate gene expression or which, as co-repressors, actively bring about transcriptional immobilization.
- Cofactors are promiscuous, can be in different combinations of different DNA-binding
- bHLH proteins MyoD, myf5, MRF4 and myogenin cause the genetic program that produces a terminally differentiated functional skeletal muscle cell to be executed in a proliferating myoblast precursor cell.
- the cell goes through a cell cycle arrest, fuses with other determined muscle cells to form multinuclear myoblasts and expresses skeletal muscle-specific structural and metabolic enzymes.
- HDAC histone deacetylase
- GRIM1 Global Repressor Involved in Myogenic differentiation
- GRIM1 shows relocalization during skeletal muscle differentiation, but at a much later point in time than was previously described for HDACs 4, 5 and 7 in connection with MEF2-specific transcription.
- the available data suggest that the repression potential of GRIM1 only has to be switched off at later points in time of skeletal muscle differentiation so that the myotubes can differentiate terminally.
- GRIM1 also shows a subcellular change in location during preadipocyte differentiation.
- a function of GRIM1 is that it also regulates the differentiation of skeletal muscle cells as a repressor.
- the data show that GR1M1 plays a significantly different role than the factors described so far.
- the in vivo role of GRIM1 is elucidated via GRIM1 knock-out animals and transgenic mice. In the transgenic animals, GRIMI mutants will express under skeletal muscle-specific promoters that no longer get into the nucleus or that can no longer be transported out of the nucleus.
- the phenotype of the mice which is caused by the atypical localization of GRIM1, will further contribute to the understanding of the GRIM1 function within differentiation processes.
- the application of the present invention lies above all in the area of degenerative muscle diseases or in the control of muscle loss in the aging man.
- the therapeutic modification of the GRIM1 function can counteract premature muscle breakdown or actively intervene in muscle building processes.
- the polypeptides according to the invention preferably have a sequence of at least 40 consecutive amino acids.
- the polypeptides more preferably have a sequence of at least 80 consecutive amino acids, more preferably a sequence of at least 120 consecutive amino acids and most preferably the polypeptides according to the invention have a sequence of at least 200 consecutive amino acids from Seq. ID No. 3.
- polypeptides more preferably have a sequence of at least 40 consecutive amino acids, more preferably a sequence of at least 120 consecutive amino acids and very particularly preferably a sequence of at least 200 consecutive amino acids of Seq. ID No. 4.
- the present invention furthermore relates to antibodies which bind specifically to an epitope of a polypeptide according to the invention.
- the antibodies according to the invention can be produced by customary standard methods. Either the GRIM1-encoding polypeptides can be used to immunize suitable laboratory animals, such as rabbits or goats, and suitable polyclonal antibodies can be produced in this way.
- the antibodies according to the invention can be directed against epitopes, such as conformation epitopes, but also against peptides according to the invention.
- suitable monoclonal antibodies can be produced using methods that have been well known since the publication of Köhler and Milstein in 1975 and are part of the standard repertoire of an average molecular biologist.
- Antibodies of this type can be used in therapy. To do this, however, it is usually necessary to produce humanized antibodies because antibodies with animal-derived components can cause undesirable side effects. When the binding regions of a suitable antibody have been sequenced, these sequences can be incorporated into a human antibody backbone and such an antibody can be used therapeutically.
- Diagnostics represents an alternative area of application of such antibodies.
- Simple polyclonal antibodies with which the presence of GRIM1 polypeptides in the group of interest qualitatively and / or quantitatively can be sufficient may be sufficient for this Cells or cell compartments can be detected.
- the person skilled in the art can carry out the appropriate diagnostic methods with such antibodies.
- the present invention further relates to medicaments which contain a polypeptide according to the invention.
- These drugs are preferably used to treat disorders of skeletal muscle differentiation and to treat disorders of fat cell differentiation.
- compositions according to the invention can contain a polypeptide with the complete GRIM1 sequence or a suitable part of the sequence.
- the drugs are administered in a suitable form to the patients to be treated.
- Oral or, preferably, parenteral pharmaceutical formulations are suitable.
- the mechanism of action of the pharmaceuticals according to the invention uses a modulation of the GRIM1 function.
- GRIM1 is transported from the nucleus to the cytoplasm.
- the pharmaceuticals according to the invention can intervene in this differentiation process in that either the import is specifically blocked or the export is blocked. This can be achieved by incorporating the appropriate sections of the polypeptides into appropriate formulations so that the target location of interest can be reached.
- GRIM1 is involved in further differentiation processes.
- GRIM1 shows subnuclear relocalization during adipocyte differentiation.
- An involvement of GRIM in various other regulatory processes results from the knowledge of the present invention, in particular from the experimental data which show that GRIM1 shows a repression of various complexes and synthetic promoters and that ubiquitous expression of GRIM1 is present.
- the present invention furthermore relates to a method for identifying substances which influence the biological function of a polypeptide according to the invention.
- the substance to be identified is brought into contact with the polypeptide in a test system.
- This test system can be used to identify substances that interact with the GRIM1 polypeptide and inhibit or enhance the biological function of GRIM1.
- the systems used according to the invention are preferably cellular differentiation systems which are in particular myogenic C2C12 cells or rapidly and inducibly differentiating 10T> / . Use MyoD-ER cells.
- the 'proof of GRIM1 or GRIM1 localization can occur for example immunohistochemistry. Suitable methods include the use of fluorescence-coupled or enzyme-coupled antibodies in a direct staining step.
- Suitable cell lines can also be provided which contain a corresponding genetic construct with a GRIM1 gene.
- the substances to be examined can then be brought into contact with the cells and the effect of the substance to be examined can be determined by means of corresponding comparative tests.
- suitable genetic constructs can be introduced into laboratory animals and the transgenic animals can be used for the test methods.
- recombinantly produced GRIM1 fragments can be incubated in cell-free test systems with substances to be tested, and the desired test result can be obtained by using a suitable reporter molecule.
- Another aspect of the invention is the cDNA coding for hsGRIMI (homo sapiens), which has a sequence of at least 1200 consecutive nucleotides from Seq.ID No. 1.
- Another aspect of the invention is the cDNA coding for mmGRIM (mus musculus), which has a sequence of at least 1200 consecutive nucleotides from Seq.ID No. 2.
- the cDNAs according to the invention can be used in transfection vectors which have a cDNA according to the invention.
- This can preferably be an adenoviral vector.
- transfection vectors are used to produce cells that have been transfected with such a vector.
- the following methods were preferably used in addition to conventional standard methods; the underlined method areas are explained in more detail below:
- the cells were cultured in the media recommended by ATCC on 15 cm cell culture dishes under sterile conditions. Cells are subcultured every two to three days in a ratio of 1: 5 to 1:20 and kept at a maximum of 60% confluence. Old medium is removed, the cells are washed with PBS buffer and treated with types in / EDTA solution (0.25% trypsin, 0.04% EDTA in PBS buffer) until detachment from the culture dish. The cells are separated in fresh medium and subcultured on new cell culture dishes.
- PBS buffer 137 mM NaCl; 2.7 mM KCI; 8mM Na 2 HP0 4 ; 1.8 mM KH 2 PO 4
- DMEM Gibco BRL
- 100 lU penicillin G / ml 100 ⁇ g / ml streptomycin
- pCMX-hsGRIM1 expression plasmids were cotransfected with luciferase (LUC) reporter plasmids.
- LUC luciferase
- the expression of the respective hsGRIMI protein is under the control of the cytomegalovirus promoter.
- the expression of the luciferase is controlled either by the thymidine kinase (TK) promoter, an E1b minimal promoter (TATA box), or by the respectively specified complex promoters.
- TK thymidine kinase
- TATA box E1b minimal promoter
- the transfection is carried out with the calcium phosphate method or with the DOTAP liposome method (Röche Diagnostics, product information). Unless otherwise stated, 10 5 cells / well are sown in 1 ml culture medium in 12-well dishes. In the CaP0 4 method, the plasmid DNA to be transfected is coprecipitated with calcium phosphate and that Precipitate distributed on the cells capable of division. To prepare the calcium phosphate precipitate, the approach given below for double values is made in 12-hole dishes:
- Stable transfection of cell culture cells is carried out with the pcDNA6-His system from Invitrogen. Cells are transfected as described above and stable integration of the plasmids used is detected by the selection antibiotic Blasticidin S. Individual clones are picked, expanded and tested for stable expression by Western blotting and immunodetection.
- Yeast two-hybrid interaction assays mammalian THS, pull-down analyzes, immunoprecipitation of cellular proteins followed by immunodetection or in combination with 35 S-methionine-labeled interaction partners, phast-gel system.
- a protein is expressed in E. coli as a GST fusion protein, immobilized on a GST-binding carrier material and incubated with the potential interaction partner, which is generally radioactively labeled.
- the potential interaction partner which is generally radioactively labeled.
- proteins that do not interact, or only weakly, interact with the carrier material or the carrier material-bound proteins GST fusion protein washed.
- the amount of associated interaction partner can be determined by a separation of the proteins by SDS-PAGE and a subsequent autoradiography.
- the interaction with GST alone is checked. Aliquots of GST-GRIM1 fragments or E. co /.
- Raw lysate containing GST are each mixed with 30 ⁇ l of glutathione (GSH) Sepharose and incubated for 1 h at 4 ° C. on a Bohemian Wheel.
- GSH-Sepharose is pelleted by centrifugation (1 'at 2000rpm) and washed twice in pulldown buffer. The pellet is then resuspended in 500 ⁇ l pulldown buffer and incubated with the in vitro translated, 35 S-methionine-labeled potential interaction partner for 1 h at 4 ° C. on the Bohemian Wheel. After washing three times with pulldown buffer, the GSH-Sepharose pellet is boiled up in 30 ⁇ l of SDS sample buffer, the proteins are separated by SDS-PAGE and the gel is subjected to autoradiography after drying.
- Pulldown buffer 20mM HEPES (pH 7.7); 150 mM KCI; 0.1 mM EDTA; 25 mM MgCl 2 ; 10mM DTT; 0.15% (v / v) NP40.
- the stable complex of both proteins can be pre ⁇ ipitized with an antibody that is only directed against one of the two interaction partners.
- the protein-antibody complex is isolated from the solution with the aid of an antibody-binding carrier material ( ⁇ -bind G Sepharose, Pharmacia).
- ⁇ -bind G Sepharose an antibody-binding carrier material
- either native cell extracts or cell extracts containing GRIM1 are mixed with in vitro translated, 35 S-methionine-labeled target proteins in 500 ⁇ l IP buffer.
- 5 ⁇ g anti-GRIM1 or non-specific antibodies are added together with 30 ⁇ l pre-equilibrated ⁇ -bind G Sepharose and incubated for 60 min at 4 ° C on a Bohemian Wheel.
- IP buffer 20 mM TrisHCI (pH 8.0), 300mM NaCI, 5mM EDTA, 0.3% (v / v) NP40,
- 0.5mM pefa block Cell lysis buffer 50mM TrisHCI (pH 8.0), 170mM NaCI, 0.1% NP40, 50mM NaF, 2mM NaO 3 V 4l 0.2mM DTT, 0.1 mM Pefablock, 1 ⁇ g / ml aprotinin, 10% glycerol
- Cells are seeded onto autoclaved slides in the desired cell density and fixed on the slide with 5% paraformaldehyde for 10 '.
- Cell membranes are made permeable to antibodies by 10 'incubation in 0.2% TritonX100. Before incubation with the primary antibodies, the cells are blocked for 1 hour at RT in 0.2% gelatin (in PBS).
- Anti-hsGRIMI antibodies are diluted 1: 500 in 0.2% gelatin solution and incubated for 1 h at RT. After washing three times with PBS for 5 'each, the respective fluorochrome-coupled secondary antibody is added 1: 2000 in 0.2% gelatin solution and incubated 30' at RT in the dark.
- the nucleus is counterstained using DAPI (1 ⁇ g / ml PBS, Röche Diagnostics) and the cells are finally washed twice in 0.1% TritonXIOO in order to minimize autofluorescence.
- the slides are preserved in Fluoromount M (Southern Biotechnology Associates) and analyzed with a fluorescence microscope.
- Intact nuclei can be isolated and separately lysed by hypotonic lysis of the cell membrane.
- Cells are harvested in ice cold PBS, pelleted and swelled in hypotonic lysis buffer (LB). The cell membrane is permeated by adding NP40 ad 0.1%, and the cytoplasmic components are released by gentle shaking and incubation on ice for 15 '.
- Intact nuclei are pelleted by centrifugation at 14,000 rpm for 15 ', the CP fraction is quantitatively removed and the protein concentration is determined.
- Cores are lysed by 15 'incubation with vortexing in core lysis buffer (KLB). Debris is pelleted and the soluble core preparation is removed.
- KLB core lysis buffer
- the quality of the preparation is checked by Western blotting and immunodetection with core-specific (for example T1F2) and cytoplasmic (for example RasGAP) markers.
- core-specific for example T1F2
- cytoplasmic for example RasGAP
- KLB 20mM HEPES (pH 7.9), 420mM NaCl, 1.5mM MgCI 2 , 0.2mM EDTA, 0.5mM DTT, 0.5mM Pefablock, 10% glycerol
- HDAC assay HDAC assay
- INHAT assay INHAT assay
- luciferase assays INHAT assay
- histone deacetylation reactions carried out were carried out as part of a kit obtained from Upstate Biotechnology ( 3 H-labeled histone H3 N-terminus as substrate). 14 C-acetyl-labeled histones or in vivo labeled histones (courtesy of Dr. Martin Gött Anlagen, Kernutzstechnik Düsseldorf) were used as alternative substrates.
- INHAT assays were performed as described in Eckner et al. and under Seo et al. (Eckner et al., 1996, Genes and Development 10 (19), pp 2478-2490, Seo et al., 2001, Cell 104 (1), pp 119-130). Histones or histone mixtures are preincubated with the corresponding peptides in a total of 50 ⁇ l HAT buffer, then mixed with a bacterially expressed p300 HAT domain and 0.5 ⁇ Ci 14 C-acetyl-coenzyme-A and incubated for 2 hours at 30 ° C and 100 orpm. Reactions are stopped by adding SDS-lemmel buffer, proteins are separated in denaturing SDS-PAGE and the gels are incubated for 1 h in Amplify (NEN). Acetylations are detected in autoradiographs.
- Transiently transfected cells are washed once with PBS and lysed by adding 50 ⁇ l reporter lysis buffer (Promega) and further disrupted by freezing at -80 ° C.
- Cell lysates are transferred into Eppendorf reaction vessels and cell debris 2 'pelleted at 14000 rpm 10 ⁇ l of the lysates are pipetted into 96-well microtiter plates to determine the luciferase activity, and the luciferase assay is carried out in an EG&G Berthold Microluminomat 10 "determined. The measured values of the luciferase activity are based on those present in the cell lysate Adjusted the amount of protein.
- Luciferase Assay Buffer 200mM Tricine; 1.07mM (MgCO3) -4Mg (OH) 2; 0.1 M MgSO4,
- the cloned human GRIM1 protein comprises 2250 base pairs and codes for 749 amino acids.
- the human GRIM1 sequence which was cloned and obtained by sequencing, was first laid down in 1999 under the accession number AL050019 (protein DKFZp564C186) as part of a "Random EST sequencing" project of the DKFZ in Heidelberg as an unknown cDNA. A further revised sequence was laid down in March 2001 (Wiemann et al., 2001). A functional description for the protein DKFZp564c186 has not yet been given.
- the cDNA according to the invention is shown in FIG. 1. The sequence has the Seq. ID No. 1.
- a total length protein with a total of 750 amino acids, which has a total of 60% identical and over 85% homologous residues to the known hsGRIMI sequence, could be calculated from mouse EST databases by comparative analysis with the hsGRIMI aa sequence from independent ESTs. Analysis of mouse cDNA and mouse genomic banks (Celera) have confirmed the calculated and expected mmGRIMI aa sequence. The fictitious cDNA could be confirmed by RT-PCR analyzes. The total length cDNA of mmGRIMI has not yet been described and has been recorded. The sequence with the Seq. ID No. 2 is shown in Figure 2. Seq. ID No. 2 was obtained by screening mmEST-dbs with the hsGRIMI aa sequence.
- the data obtained were compared with mm-cDNA-dbs and mouse genomic-dbs and the virtual mmGRIMI cDNA was created.
- the sequence was confirmed by RT-PCR and genomic sequencing and by a direct sequence comparison with the mouse genomic database from Celera Inc.
- FIG. 3 shows a comparative homology representation of the mmGRIMI and hsGRIMI amino acid sequences, including conserved sequence motifs.
- mmGRIMI human amino acid sequence
- hsGRIMI human amino acid sequence
- hsGRIMI is mainly alpha-helical in structure (Columbia University's PHD Predict program) and non-globular (Columbia University's Predict Protein Server GLOBE).
- GRIM1 is nuclear localized in proliferating cells, within cellular differentiation systems (eg with C2C12, L6, 10T1 / 2 and 3T3-L1 cells) GRIM1 is re-localized from the nucleus into the cytoplasm.
- hsGRIMI deletion mutants used Many of the mutants used have specific tags such as the Gal4 DNA binding domain of the yeast GAL4 transcription factor [Gal4-DBD], green fluorescent protein [GFP], herpes simplex virus transactivator protein 16 [VP16], the antibody-specific signal sequences FLAG-tag [FLAG] , Xpress-tag [XPRESS], c-myc-tag [MYC], nickel-binding epitope His-tag [His], maltose-binding epitope [MBP], glutathione-binding parts of glutathione-S-transferase [GST]).
- the use of such modified proteins is characterized by the use of the epitope name in the GRIM1 construct used. The function of the individual areas of the polypeptides according to the invention was investigated by these experiments.
- hsGRIMI homologous proteins can be found in a variety of species. Homologous sequences can be found in Shizosaccharomyces pombe, Saccharaomyces cerevisiae, Rattus spec, Bos bovis, Mus musculus, Drosophila melanogaster, Caenorhabditis elegans, Danio rerio and also in Arabidopsis thaliana. A summary is obtained from the databases UNIGENE (National Center for Biotechnological Information, NCBI) and the PredictProtein server of Columbia University and is shown in Table 3 below:
- Organism protein, percent identity and length of the compared region.
- H.sapiens sp: Q9Y3T9 - YU2 (HUMAN HYPOTHETICAL 84.9 KDA PROTEIN
- Table 3 Representation of the UNIGENE maximally homologous proteins from mouse, rat, Arabidopsis, roundworm, fruit fly and baker's yeast. Swissprot accession numbers, UNIGENE accession numbers, examined area and maximum homology are given (mouse Q9WV70 is not the total length clone, compare the mouse clone described and described under Seq.ID No. 4). A comparison of the amino acids and the determination of a consensus sequence is shown in FIG. 4.
- genomic sequences of mmGRIMI and hsGRIMI are compared in Table 4 below.
- QMift ⁇ Eintrisg ⁇ No muscle or fat No musket or fat-related phenotype related phenotype 1 33 is a highly mutated locus and is associated with breast, prostate and brain tumors
- Quality de Cori & tiö & Chromosome 1 Build 27 has no order up to 5, & kb 5 'and 3 * gaps more, ordered structure, flanking, only a small "gap between exorte ⁇ . 2 and 3 (see Appendix 2 ⁇
- FIG. 5 shows the genomic sequence of hsGRIMI (NCBI Human Genome Server, Chromosome 1 map view, build 27, December 2001). Exons are shaded, the putative poly-A site is underlined. The sequence corresponds to Seq ID No. 5.
- FIG. 6 shows the genomic sequence of mmGRIMI including 5.5 kb flanking sequences (determined via the public NCBI mouse genome db and the commercial Celera mouse genome db). The exons are shaded, intronic sequences are shown in lighter colors. Exon / intron transitions are shown more strongly. The putative poly-A site and the putative start of transcription are underlined. Sequence fragments that have not yet been completely assembled are represented by “N”. The mouse genomic sequence is SEQ ID ID 6.
- Bacterial systems all systems used use Escherichia coli security strains that were purchased from Stratagene.
- BL21 (DE3) lysGOLD His-fused Expression in the pRSET system or in a modified pRSET vector with a unique hexahistidine tag, purification via a nickel affinity matrix (TALON, Clontech). Co-expression with GroESL and hspHJK chaperones.
- BL21 (DE3) lysGOLD GST-fused Expression in pGEX4 or 6 system from Pharmacia, purification via GSH affinity columns. Expression inducible via IPTG. Co-expression with GroESL and hspHJK chaperones.
- BL21 (DE3) lysGOLD NusA-fused increase in the solubility of the target protein via the NusA portion, purification via GPC (Stratagene, Novagen)
- BL21 (DE3) lysGOLD MBP-fused: periplasmic expression, thereby reduced cytotoxicity (Stratagene, New England Biolabs pMAL system)
- BL21 (DE3) lysRIL Codon-optimized BL21 strain (Stratagene). Both hexahistidine and GST fused protein expression.
- BL21 (DE3) lysRIL Codon-optimized BL21 strain (Stratagene). Both hexahistidine and GST fused protein expression.
- BL21 (DE3) lysRIL Codon-optimized BL21 strain (Stratagene). Both hexahistidine and GST fused protein expression.
- ABLE C Security strain that downregulates endogenous plasmid copies by a factor of 4x (Stratagene). Both hexahistidine and GST fused
- Laubmoos Physcomitrella patens stable integration of a CaMV-driven expression plasmid for GST-hsGRIM1 (pRT99 / 35S-GST-hsGRIM1) via non-homologous recombination, triple selection via two different selection antibiotics and multiple sowing (in cooperation with Prof. Ralf Reski, Institute for Plant Biotechnology at the University of Freiburg).
- hsGRIM -specific antibodies two hexahistidine-fused hsGRIMI protein fragments were expressed in E. coli, purified and used to immunize rabbits.
- the amino acids 3-147 and 609-749 from hsGRIMI served as epitopes for the antibody
- regions correspond to the putative INHAT domains of hsGRIMI and are particularly characterized by acidic (polyE / polyD clusters).
- the corresponding regions of the hsGRIMI cDNA sequence were generated by restriction digestion with endogenous EcoRI (aa147) and Xmal (aa609) sites and the products based on the vector pRSET-B (Invitrogen) (aa 609-749) or pRSET-N7H pRSET-B, with the difference that further tags were removed and the protein is only expressed with hexahistidine tag) (aa 3-147).
- the hexahistidine-fused hsGRIMI protein fragments (aa 3-147 "E”, aa 609-749 “I") were overexpressed in E. coli BL21 (DE3) lysGOLD and, after digestion of the bacteria, purified by TALON affinity chromatography. After isolation and purification from E. coli, both polypeptides had an estimated purity of approximately 80-90%. Rabbits were immunized with the polypeptides and the antiserum generated was purified. The purified monospecific antibodies against aa 3-147 (2719, 2720) and against aa 609-749 (2910 and 2911) were functionally characterized.
- the antibodies obtained were used in various immunological test procedures and made it possible to detect the expression of GRIM1.
- the two antibodies directed against the N-terminus show GRIM1 localization exclusively nuclear in subnuclear compartments, which are commonly referred to as "speckle".
- the number and size of the nuclear speckies varies from cell line to cell line, only the exclusive nuclear localization of GRIM1 in proliferating cells is common.
- the two antibodies directed against the C-terminus recognize exclusively nuclear GRIM1 in proliferating cells, however not in speckies, but in a pan-nuclear localization in the entire nucleoplasm.
- hsGRIMI The cDNA expression of hsGRIMI is according to the report of the Unigene database (UniGene Cluster Hs.134200, Homo sapiens DKFZP564C186 / DKFZP564C186 protein with the cDNA library 2334BT0407 used) ubiquitous. Proven expression in:
- hsGRIMI The expression pattern of hsGRIMI was shown by Northern blot analysis (CLONTECH hsMTN I and hsMTN II, probe: both total length hGRIMI cDNA or N- and C-terminal fragments).
- the hsGRIMI transcript size is approximately 3.3 kb (in accordance with the total length mRNA recorded under Acc. # AL 050019):
- mmGRIMI The expression of mmGRIMI in different tissues of the adult mouse (4-6 weeks) was determined by RT-PCR. The following tissues and organs were positively classified as mmGRIMI:
- mmGRIMI mRNA expression in the embryonic development was determined by RT-PCR with total embryo mRNA. A clear mmGRIMI signal is detected at all times, and there is no significant change in mmGRIMI mRNA expression during development.
- Table 8 shows a UNIGENE database analysis for EST expression selected in homology to mm / hsGRIM1 protein. Accession numbers of the IMAGE clones or the partially unknown sequences and the type of tissue from which the cDNAs were isolated are indicated. GRIM1 also appears to be ubiquitously expressed at the protein level. A total of 308 ESTs were found, of which those are listed below that show a clear tissue assignment:
- mmGRIMI protein in primary cells and tissues is given below (all cells listed are GRIM1-positive in Western blot (86kD), and cells were also checked for expression in IIF). Signals are obtained with both antibodies (N- and C-terminal epitope):
- mmGRIMI protein could be demonstrated by in situ immunohistochemistry on sagittal sections of E10.5 mouse embryos.
- mmGRIMI is expressed in epithelial structures, in the dermomyotome of the posterior extremities, in the inner-epithelial areas of the neural tube and in other, not yet determined, cell populations. Concentrated expression can only be detected in the dermatomyotome; only a few mmGRIMI positive cells can be detected in the remaining areas.
- Ubiquitous expression of GRIM1 was found in mRNA and EST analyzes.
- mmGRIMI is expressed in every tissue type, but by no means in every cell, but rather in specialized cell populations. mmGRIMI is not expressed in every cell type, but is distributed over the entire organism in specialized cell types.
- ⁇ GPJMi is not in every cell type Xxp ⁇ mie ⁇ t ;. jedoc ' spread' over the whole; Hirhareal in ⁇ pez ⁇ id ert cell type ⁇ . ' X- ' --X ' -AXA XXi ' xx XXI ⁇ '' ⁇ -XXx ' x. ⁇ ' ⁇ ⁇ -P -.: .. ' d) Expression of GRIM1 protein in cell culture cells. All lines listed are classified as GRIM1 positive in Western blot analyzes (cross-species size of approx.
- hsGRIMI-like protein in Drosophila melanogaster was examined using Western blot and whole-fly in situ hybridizations.
- Myogenin ivlP, tT
- MEF2A ivlP
- MEF2B ivlP
- MEF2C ivlP, tT
- eHand ivlP
- dHand ivlP
- E47 ivlP
- E12 ivlP
- GATA4 ivlP
- MyoD ivlP, tT
- SEF ivlP, tT
- MRF4 ivlP, tT
- Myf5 ivlP
- Sp1 tT
- CBF CBF
- N-CoR (ivlP, tflP, utflP, PD), Sin3A (ivlP, tflP, utflP), S ⁇ n3B (tflP, utflP), SuN-CoR (ivlP, tT), SMRT (ivlP, tflP, utflP), HDAC1 (tflP , utflP), HDAC2 (tflP, utflP), RIP140 (ivlP)
- Histones H3, H4, H2A, H2B (PD) A strong direct interaction between hsGRIM1 / mmGRIM1 has so far only been shown with the androgen receptor (hsAR) (detected via tflP in both directions, utflP in both directions, yTHS, PD and tT). Interaction with the androgen receptor is independent of the ligand and cannot be influenced by the presence of antagonists (Casodex, hydroxy-flutamide, cyproterone acetate).
- GRIM1 interacts with the "normal" AR with 17 glutamines as well as with AR isoforms that are associated with Kennedy disease and contain polyglutamine-rich insertions (17, 44 and 77 Q), also ligand-independent.
- the PD analyzes were carried out with the GRIM1 fragments GST-I / E / H / M, with all fragments except GRIM1-AR "(aa 3-147) interacting with the AR, in the order M> H» I.
- the physiological relevance of the AR-GRIM1 interaction is described in more detail in a separate chapter.
- GRIM1 shows a strong interaction with the gore histones H4, H2B, H2A and H3 in GST pulldown analyzes.
- Recombinantly expressed GST-GRIM1 fusion proteins (GST-aa 3-147 and GST-aa 609-749) show a clear interaction with all four core histones, which further underpins the observed INHAT activity of the N- and C-terminal GRIM1 domains.
- mm / hsGRIM1 Potential interaction partners of mm / hsGRIM1 can be identified using standard methods. These methods include yeast two hybrid screen with various cDNA banks and direct protein biochemical methods such as Co-IP of GRIM1 and associated proteins, separation via 2-dimensional gel electrophoresis, mass spectrometric analysis and microspray sequencing of the potentially interacting proteins from different cell culture cell cultures (C2C12 differentiated, C2C12 undifferentiated, 3T3L1 differentiated, 3T3L1 undifferentiated, BHK and much more.)
- yeast two hybrid screen with various cDNA banks and direct protein biochemical methods such as Co-IP of GRIM1 and associated proteins, separation via 2-dimensional gel electrophoresis, mass spectrometric analysis and microspray sequencing of the potentially interacting proteins from different cell culture cell cultures (C2C12 differentiated, C2C12 undifferentiated, 3T3L1 differentiated, 3T3L1 undifferentiated, BHK and much more.)
- GRIM1 Physiological function of GRIM1: Analysis of the repression potential of hsGRIMI in transient transfections
- GRIM'I is a potent transcriptional repressor when used as a Gal4-DBD fusion proton in transient transfections.
- Gal-GR1M1 represses the expression of reporter genes from both Gal4-RE controlled complex and synthetic minimal reporter constructs.
- the repression potential of GRIM1 is significantly stronger compared to the co-repressor Gal-SuN-CoR.
- the corresponding co-repressors are transiently expressed in cells as heterologous Ga14-DBD fusion proteins.
- the level of repression on different synthetic promoter-reporter constructs in comparison to the same amounts of transfected wild-type Gal4-DBD is determined via luciferase reporter gene expression
- Gal-GRIM1 is a stronger repressor than Gal-SuN-CoR. 293 cells were co-transfected with G5E1 bTATALUC reporter and the specified amounts of co-repressors. The same effect can be observed when complex promoters are tested (Gal4 3x -tk-LUC)
- Gal-GRIM1 is a repressor of the same strength as a large number of co-repressors such as, for example, Gal-HDAC1-10, Gal-CBF1, Gal-Alien and is only slightly less repressed than Gal-N-CoR-RD or Gal-SMRT-RD Das Repression potential of Gal-GRIMI was determined in connection with the complex Gal4 3x -tk-LUC and Gal-MMTV-LUC promoter / reporter constructs and in connection with the minimal promoter / reporter constructs Gal 5x -E1b-TATA-Box and Gal 3x -ßglob ⁇ n- TATA-LUC examined.
- Gal-GRIM1 repression capacity of Gal-GRIM1 was compared to one LexA-DBD to DNA-bound autonomous VP16 transactivation domain examined by a LexA 8x Gal 5x -LUC reporter (provided by Dr. S. Khochbhin).
- the data obtained for Gal-GRIM1 have been experimentally tested in the following Zeil lines: A7r5, C2C12, CV1, BHK, 293, N2a, COS-7. Representative results for BHK and C2C12 cells are shown in the following figure.
- Gal-GRIM1 is a transcriptional repressor.
- Gal-GRIM1 The repression of Gal-GRIM1 is not affected by the addition of the specific histone deacetylase (HDAC) inhibitors T ⁇ chostatin A (TSA, 300nM) and sodium butyrate (Na-But, 5 mM), which is a fundamentally different mechanism of repression than for others Co-repressors suggested suggested. Comparable cases have been described for other repressors, but no methodological explanation is described. In addition, the factors described show no involvement in skeletal muscle differentiation or adipogenesis. Data on the independence of HDACs in transient transfections are shown in the following figure as an example for BHK cells. The transcriptional activity of Gal-GRIM1 is not influenced by TSA in any Zeil line that has already been tested.
- HDAC histone deacetylase
- Table 11 The repressive capacity of Gal-GRIM1 is not affected by the addition of the HDAC inhibitor trichostatin A (TSA). Transient transfections were carried out in BHK cells with a Gal4-tk-LUC reporter plasmid.
- TSA trichostatin A
- GRIM1 deletion mutants were constructed to determine the GRIM1 domains involved in the repression, and all of them were tested for their repression potential in all the reporter systems already described in the Gal4-DBD context. All GRIM1 domains used show transcriptional repression in the range from 2x (Gal-E and Gal-I) up to 15-20x (total length Gal-GRIM1). All deletion mutants tested were found to be insensitive to HDAC inhibitors.
- GR1M1 has at least 5 independent repression domains, the 3 main repression domains being in the hydrophobic core region of the protein (mutQ, mutR, mutP).
- every deletion mutant analyzed in the Gal4-DBD context shows a level of repression that is significantly above the background.
- Table 12 Summary list of all hsGRIMI deletion mutants used, which were examined for their repression potential as a Gal4-DBD fusion in transient transfections.
- the subdomains "E” and “I” of GRIM1 described in the section "INHAT activity" show the least repressive effect in the transcriptional assays as Gal4-DBD fusions, but are involved in the prevention of histone acetylation by p300. No further information is available on the domains Q, P and R, a direct involvement in the recruitment of additional co-repressors could not be proven by the interaction studies mentioned above.
- involvement of HDACs can be excluded and at least two different mechanisms appear to be used (E and I as opposed to Q, R and P).
- Table 13 Determination of the GRIM1 repressor domains via deletion analysis.
- Gal-GRIM1 deletion mutants were examined for their repression potential in transient transfections.
- the central GRIM1 repressor domain lies in the area between the aa 246-609 (shown in white).
- the central RD can be further divided into a total of three independent domains by means of further deletion studies (shown with dark hatching).
- GRIM1 is able to repress both complex naturally occurring and synthetic minimal promoters.
- the following systems were tested in transient transfections: GRIM1 and complex promoters (p21 (-4542) LUC, SKA-LUC, Calponin-LUC, myogenin-LUC, myogenin proximal promoter-LUC, thymidine kinase-LUC, probasin-LUC, MMTV-LUC and much more).
- Myogenin-LUC Myogenin 133-LUC
- GRIM1 represses various natural promoters in BHK cells GRIM1 represses the ApoA1 promoter, the calponin (-3000) promoter, the SKA promoter and the myogenin promoter and its proximal element (myogenin 133-LUC) depending on the dose.
- Table 15 GRIM1 represses various natural promoters in C2C12 cells.
- GRIM1 represses the calponin (-3000) promoter, the SKA promoter, the p21 (-4542) - and the myogenin promoter.
- Co-transfection of GRIM1 and E1b-TATA-Box containing minimal promoters with synthetic TF binding sites (AR, Gal4 and SEF binding sites) or with the complex MMTV promoter leads to a repression of the basal transcriptional activity (all transfections shown were in BHK cells carried out).
- G5E1bTA TA-LUC is an adenovirus E1b TATA box containing a minimal construct with 5 Gal4 binding sites
- ARE2x (tk) TATA-LUC is a minimal construct with 2 copies of an AR binding site in front of a thymidine kinase TATA box
- E box (tk) TATA -LUC contains a binding site for the bHLH transcription factor SEF in the same context and MMTV describes the complex Moloney mouse tumor virus promoter.
- GRIM1 does not repress stably integrated luciferase reporter genes.
- a HRL + N cells with a stably integrated retinoic acid inducible promoter B NIH3T3 cells with a stably integrated CycA promoter LUC.
- HDACs histone deacetylase
- GRIM1 has no endogenous or associated HDAC activity.
- HDAC activity Released radioactivity above 850 cpm is considered HDAC activity.
- Samples were either washed 3 times physiologically (SC) or with increasing amounts of NaCI (300 and 400mM). At 400mM salt it is assumed that no associated proteins have been co-precipitated (confirmed by Western blot and PonceauS staining).
- the figure summarizes 5 independently performed HDAC assays.
- the name Arco refers to the GRIM1 protein.
- a further possibility for transcriptional repression is the direct masking of the histone N-termini, so that acetylation and thus loosening of the chromatin of the affected region is prevented. It was found via database analysis that the N-terminus (aa 25-135) and the absolute C-terminus (aa 638-749) of hsGRIMI have acid domains which have homology to a described INHAT domain of the set protein. INHAT is an acronym for protein domains / proteins that are able to bind lysines and thereby prevent histone acetylation. GST pulldown analyzes showed that the N- and C-terminal fragments of hsGRIMI can directly associate with histones in vitro.
- GRIM1 aa 3-147 and aa 609-749 efficiently blocked the acetylation of all four core histones (H3, H2A, H2B and H4) by p300. This showed that a possible mechanism of GRIM1-mediated repression could be guaranteed by histone masking.
- Methylation of specific lysines in the free histone-N-termini ensures a compacting of the chromatin structure by preventing acetylation of the regulatory important lysines and thereby preventing loosening of the chromatin.
- methylated lysines represent a high affinity binding site for the HP1 protein (heterochromatic protein 1).
- HP1 can recruit DNA methylases, MeCPs and also HDACs and lead to a targeted formation of transient or constitutive heterochromatin and thus repress transcriptional processes.
- HMTases described so far are, for example, Suv39h1, Suv39h2 and PRMT1.
- HMTase histone methyltransferase
- a further possibility of targeted repression would be the targeted recruitment of chromatin reorganizing complexes (e.g. BRG, SWI / SNF, CHRAC, ARC, RSC etc.).
- chromatin reorganizing complexes e.g. BRG, SWI / SNF, CHRAC, ARC, RSC etc.
- GRIM1 will have a functional interaction with one of the components of one of the remodeling complexes. Blocking of PIC formation / hindrance of the initiation reaction /
- Another form of repression is to prevent or prevent the formation of the pre-initiation complex (PIC) at the start of transcription.
- PIC pre-initiation complex
- Successful initiation can only take place if the TATA box-binding portion of TFIID can recruit the polymerase holocomplex at the transcription start point and if all the basal transcription factors involved are available in sufficient quantity.
- Another prerequisite for successful transcription is that the C-terminus of the RNAPII must be phosphorylated so that the initiation site can be left.
- GRIM1 interacts directly with one of the basal transcription factors or elongation factors and thereby blocks efficient transcription (yeast two-hybrid system, pulldown analyzes).
- a phosphatase domain within the GRIM1 structure cannot be found via homology analyzes.
- the experimental evidence that GRIM1 could dephosphorylate RNAPII is still pending.
- GRIM1 to inactivate basal or general co-activators by binding and thereby to repress the initiation or elongation process is currently being investigated by searching for potential interaction partners of hsGRIMI.
- RDs independent repressor domains
- Table 19 Summary of the functional motifs in hsGRIMI.
- LxxLL interaction motif through which co-activators interact with NHRs.
- NES Nuclear export signal.
- NLS Nuclear localization signal.
- CoRNR-Box Interaction motif through which co-repressors interact with NHRs.
- HMG box contact of HMG proteins with DNA and histones.
- Table 20 Directed mutagenesis to inactivate the four lysines involved in the NES.
- hsGRIMI protein fragments were fused with GFP (Green Fluorescent Protein) (shown in the following figure) and expressed in cells via transient transfection. The localization of the respective fragments was verified by fluorescence microscopy.
- GFP Green Fluorescent Protein
- Table 21 GFP fusion proteins used to demonstrate the functionality of the nuclear export signal (NES). ⁇ NES identifies the point mutations described above.
- GFP alone showed a pan-cellular localization, total length GFP-hsGRIM1 was exclusively nuclear localized, due to the dominance of the NLS also the NES deletion mutant and the fragment to which a region flanking the NES was deleted (hsGRIMI ⁇ aa246-334).
- hsGRIMI aa246-334 the fragment to which a region flanking the NES was deleted.
- the resulting protein showed exclusively cytoplasmic localization. If the point mutated fragment of aa 246-334 was coupled to GFP, the pan-cellular localization was restored so that the functionality of the motif could be proven. Proof of NLS within hsGRIMI
- Table 22 Directed mutagenesis to inactivate the seven basic residues involved in the NLS.
- hsGRIMI protein fragments were fused with GFP (shown in the following figure) and expressed in cells via transient transfection. The localization of the respective fragments was verified by fluorescence microscopy.
- GFP alone showed a pan-cellular localization, total length GFP-hsGRIM1 was exclusively nuclear localized.
- the GFP fusion protein showed both cytoplasmic and weak nuclear localization, the corresponding counterpart fused to GFP (GFP-hsGRIM1 aa609-749) shows exclusively nuclear localization.
- the total length hsGRIMI with seven times Point mutation within the NLS showed the same distribution pattern as the hsGRIMI aa1-609 deletion mutant and confirmed the functionality of the NLS. If the point mutated fragment of aa609-749 was coupled to GFP, the fusion protein was also localized cytoplasmically.
- GR1M1 shows a change in its subcellular location within specific differentiation processes.
- GRIM1 is transported from the nucleus into the surrounding cytoplasm during skeletal muscle differentiation of mouse C2C12 cells.
- the timeframe of the observed translocation of GRIM1 is in the range of the expression of the myogenic bHLH transcription factor myogenin (Myf4) and the structural protein skeletal muscle myosin heavy chain (MHC), i.e. at a more advanced point in time of muscle differentiation than previously described factors such as HDAC4, HDAC5 and HDAC7.
- Myf4 myogenic bHLH transcription factor myogenin
- MHC structural protein skeletal muscle myosin heavy chain
- GRIM1 leaves the nuclei of fused myotubes in differentiating C2C12 skeletal muscle cells after approx. 6 to 8 days, whereas GRIM1 is always nuclear localized in mononuclear myoblasts.
- the expression of the muscle structure protein MHC occurs at the time when the first GRIM1-free nuclei can be observed and was used in IIFs as a temporal marker for GRIM relocalization.
- the data determined for C2C12 also apply to other cellular skeletal muscle differentiation systems.
- rat L6 skeletal muscle cells The same effect could also be demonstrated in rat L6 skeletal muscle cells.
- the cells have different differentiation kinetics and only merge in differentiation medium (DM) from day 10-12.
- GRIM1 also relocates in L6 cells, GRIM1-free nuclei can only be detected in DM from day 16.
- mouse 10T1 / 2 fibroblasts were stably transfected with an estrogen-inducible MyoD expression cassette (cells courtesy of Dr. D. Bergstrom). After adding 1 ⁇ M estradiol, skeletal muscle differentiation is granted via MyoD Expression. After about 3-4 days in DM, many cells can already be detected as multinuclear myotubes.
- the GRIM1 protein is not degraded and / or degraded, but is also fully present in the cytoplasm.
- Western blot analyzes with total cell extracts from C2C12 cells that were differentiated into myotubes over 8 days in DM (> 60% of all existing cells were myotubes on day 8 after the DM was added), GRIM1 immunoreactivity can be detected unchanged. The results can also be further confirmed by cell fractionation. Furthermore, RT-PCR analyzes confirmed that the mmGRIM1-mRNA amount was not changed during the C2C12 differentiation.
- GRIM1 also undergoes subcellular relocalization during smooth muscle differentiation.
- smooth muscle cells were obtained ex mouse and dedifferentiated by adding growth factor.
- cells were further differentiated into smooth muscle cells in vitro using differentiation medium.
- differentiation medium The results show that GRIM1 does not leave the nucleus during smooth muscle differentiation.
- a cell culture smooth muscle differentiation system (Monc-1 cells) was used to obtain in vitro data about a possible GRIM1 relocalization. As already shown for the ex vivo cells, no GRIM1 relocalization could be observed in smooth muscle cells within the differentiation times examined.
- GRIM1 relocalization analyzes Another in vitro differentiation model used for GRIM1 relocalization analyzes is the differentiation of 3T3-L1 preadipocytes into mature fat cells.
- GRIM1 showed twice a detectable re-localization from the nucleus into the cytoplasm, in one case there was none Change in the location of GRIM1 to detect immunoreactivity.
- Western blot analyzes showed that there was no decrease in GRIM1 immunoreactivity in whole cell extracts in any of the three protocols.
- GRIM1 The only experimental evidence for a modification of GRIM1 is the detection of direct acetylation of GRIM1 (aa3-147 and of total length GRIM1) by the HAT domain of p300.
- 14-3-3 proteins are responsible for the fact that during muscle differentiation HDACs 4, 5 and 7 are actively removed from the nucleus and retained in the cytoplasm. An interaction between GRIM1 and 14-3-3 proteins (family members zeta, beta, tau) could be excluded via Co-IP studies.
- GRIM1 nuclear hormone receptor androgen receptor
- Table 24 The GRIM1 AR interaction domain located between aa460-609. Regions of the protein shown in white have not yet been expressed recombinantly.
- the C-terminus of GRIM1 shows no in '.ro-interaction with the AR, the fragment of aa 460 to aa 609, however, shows a strong interaction regardless of the ligands as opposed to the collected data in yeast.
- the interaction between the AR and GRIM1 could also be demonstrated in in vivo interaction assays.
- the interaction between GRIM1 and the AR was also ligand-independent and could not be blocked significantly even in wash buffer with 400 mM NaCI.
- the interaction could be shown with IP studies with antibodies against both AR and GRIM1.
- the AR is a member of the superfamily of ligand-activated nuclear hormone receptors. After binding the natural AR ligand 5 ⁇ -dihydrotestosterone, the AR is transported from the cytoplasm into the nucleus and causes a transcriptional activation of its target genes. In addition to the activating ligands, there are specific antagonists for each receptor, which also translocate into the nucleus, but cause a repressive conformation of the receptor-ligand binding domain. Antagonist-bound receptor can recruit co-repressor complexes and actively repress transcription.
- antagonists can become partial agonists and, unnaturally, a transactivation cause by the receptor
- therapeutically used substances such as cyproterone acetate, Casodex or hydroxyflutamide in prostate carcinomas can have a partially agonistic effect in hormone-refractory tumors
- GRIM1 can specifically repress a CPA, Casodex or OH-flutamide-induced transactivation of the AR.
- Non-ligated or DHT-loaded AR is not transcriptionally influenced by GRIM1.
- the observed effect fluctuates between 2-3 fold repression of the CPA-induced AR transactivation
- Table 25 GRIM1 selectively represses antagonist-activated AR
- Transient transfections were carried out in BHK cells in which the antagonists used act as partial agonists.
- a minimal promoter with synthetic AR binding parts was used as reporter (ARE 2x - (tk) TATA-LUC).
- ARE 2x - (tk) TATA-LUC reporter
- 1 ⁇ M Casodex or OH-Flutamide was used instead of 1 ⁇ M CPA.
- Another indication of the functionality of the effect is that the superactivation of the CPA-loaded AR by the co-activator TIF2 in BHK cells can be repressed or at least significantly reduced by cotransfection of GRIM1.
- Table 26 GRIM1 represses CPA-loaded and TIF2 super-activated androgen receptor. Transient transfections were carried out in BHK cells in which CPA (1 ⁇ M) acts as a partial agonist. ARE 2x - (tk) TATA-LUC was used as a reporter.
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